MODEL: P5400 UHF-L Portable Radio

Engineering and Testing for EMC and Safety Compliance Accredited under NVLAP Lab Code 200061-0 Certification Report M/A-COM, Inc. 221 Jefferson Ridge Parkway Lynchburg, VA 24501 Daryl Popowitch Phone: (434) 455-9527 E-Mail: popowitda@tycoelectronics.com MODEL: P5400 UHF-L Portable Radio FCC ID: OWDTR-0045-E IC: 3636B-0045 June 1, 2007 Standards Referenced for this Report Part 2: 2006 Frequency Allocations and Radio Treaty Matters; General Rules and Regulations Part 15: 2006 Radio Frequency Devices - 15.109: Radiated Emissions Limits Part 90: 2006 Private Land Portable Radio Services American National Standard for Methods of Measurement of Radio Noise ANSI C63.4-2003 Emissions from Low -Voltage Electrical and Electronic Equipment in the Range of 9 khz 40 GHz ANSI TIA-603-C-2004 Land Portable FM or PM Communications Equipment - Measurement and Performance Standards ANSI/TIA/EIA 102.CAAA; 2002 Digital C4FM/CQPSK Transceiver Measurement Methods RSS-119; Issue 9; 2007 Land Portable and Fixed Radio Transmitters and Receivers 27.41 to 960.0 MHz Frequency Range (MHz) Rated Transmit Power (W) (Conducted) Frequency Tolerance (ppm) Emission Designator 421-430 4.0 0.54 16K0F3E (Analog Voice; WB) 421-430 4.0 0.54 11K0F3E (Analog Voice; NB) 421-430 4.0 0.54 14K2F1D/E (2-level FSK; WB) 421-430 4.0 0.54 10K3F1D/E (2-level FSK; NB; XNB) 421-430 4.0 0.54 7K10F1D/E (2-level FSK; NB) 421-430 4.0 0.54 8K4F1D/E (4-level C4FM; P25) Report Prepared by Test Engineer: Daniel Biggs Document Number: 2007147/QRTL07-086 This report may not be reproduced, except in full, without the full written approval of Rhein Tech Laboratories, Inc. Test results relate only to the item tested. 360 Herndon Parkway Phone: 703-689-0368 Fax: 703-689-2056

Table of Contents 1 General Information... 5 1.1 Test Facility...5 1.2 Related Submittal(s)/Grant(s)...5 2 Tested System Details... 6 3 FCC Rules and Regulations Part 2 2.1033(c)(8) Voltages and Currents Through The Final Amplifying Stage... 7 4 FCC Rules and Regulations Part 2 2.1046(a): RF Power Output: Conducted; RSS-119 6.2: Output Power Test... 8 4.1 Test Procedure...8 4.2 Test Data...8 5 FCC Rules and Regulations Part 2 2.1051: Spurious Emissions at Antenna Terminals; Part 90 90.210: Emissions Masks; RSS-119 5.8: Transmitter Unwanted Emissions... 9 5.1 Test Procedure...9 5.2 Test Data...9 6 FCC Rules and Regulations Part 2 2.1053(a): Field Strength of Spurious Radiation; RSS-119 6.3: Unwanted Emissions... 11 6.1 Test Procedure...11 6.2 Test Data...11 6.2.1 CFR 47 Part 90.210 Requirements...11 7 FCC Rules and Regulations Part 2 2.1049: Occupied Bandwidth; Part 90 90.210(i) & (j): Emissions Masks; RSS-119 5.8: Transmitter Unwanted Emissions... 13 7.1 Test Procedure...13 7.2 Test Data...14 8 FCC Rules and Regulations Part 90 90.213 and Part 2 2.1055: Frequency Stability... 21 8.1 Test Procedure...21 8.2 Test Data...21 8.2.1 CFR 47 Part 90.213 Requirements...21 8.2.2 Frequency Stability/Temperature Variation...22 8.2.3 Frequency Stability/Voltage Variation...24 9 FCC Rules and Regulations Part 2 2.1047(a): Modulation Characteristics - Audio Frequency Response... 25 9.1 Test Procedure...25 9.2 Test Data...25 10 FCC Rules and Regulations Part 2 2.1047(a): Modulation Characteristics Audio Low Pass Filter... 27 10.1 Test Procedure...27 10.2 Test Data...27 11 FCC Rules and Regulations Part 2 2.1047(b): Modulation Characteristics - Modulation Limiting... 29 11.1 Test Procedure...29 11.2 Test Data...29 12 FCC Rules and Regulations Part 2 2.202: Necessary Bandwidth and Emission Bandwidth... 33 13 Conclusion... 34 2 of 64

Table of Figures Figure 2-1: Configuration of Tested System... 7 Table of Tables Table 2-1: Equipment under Test (EUT)... 6 Table 2-2: Support Equipment... 6 Table 4-1: RF Power Output (High Power): Carrier Output Power (Unmodulated)... 8 Table 4-2: RF Power Output (Rated Power)... 8 Table 4-3: Test Equipment for Testing RF Power Output - Conducted... 8 Table 5-1: Conducted Spurious Emissions 406.1125 MHz; Narrow Band; High Power... 9 Table 5-2: Conducted Spurious Emissions 422.2000 MHz; Narrow Band; High Power... 10 Table 5-3: Conducted Spurious Emissions 429.9875 MHz; Narrow Band; High Power... 10 Table 5-4: Test Equipment for Testing Conducted Spurious Emissions... 10 Table 6-1: Field Strength of Spurious Radiation 422.2000 MHz; Narrow Band; High Power... 11 Table 6-2: Test Equipment for Testing Field Strength of Spurious Radiation... 12 Table 7-1: Test Equipment for Testing Occupied Bandwidth... 20 Table 8-1: Frequency Stability/Temperature Variation 422.2000 MHz... 22 Table 8-2: Test Equipment for Testing Frequency Stability/Temperature...23 Table 8-3: Frequency Stability/Voltage Variation 422.2000 MHz... 24 Table 8-4: Test Equipment for Testing Frequency Stability/Voltage... 24 Table 9-1: Test Equipment for Testing Audio Frequency Response...26 Table 11-1: Test Equipment for Testing Modulation Limiting... 32 Table of Plots Plot 7-1: Occupied Bandwidth 422.2000 MHz; Mask B; WB Analog; High Power... 14 Plot 7-2: Occupied Bandwidth 422.2000 MHz; Mask D; NB Analog; High Power... 15 Plot 7-3: Occupied Bandwidth 422.2000 MHz; Mask C; NB 2-level FSK; 9600 BPS... 16 Plot 7-4: Occupied Bandwidth 422.2000 MHz; Mask D; NB 2-level FSK; 9600 BPS... 17 Plot 7-5: Occupied Bandwidth 422.2000 MHz; Mask D; NB 2-level FSK; 4800 BPS... 18 Plot 7-6: Occupied Bandwidth 422.2000 MHz; Mask D; 4-level C4FM (P25 mode); 4800 SPS... 19 Plot 8-1: Temperature Frequency Stability 422.2000 MHz Channel... 22 Plot 8-2: Voltage Frequency Stability 422.2000 MHz Channel... 24 Plot 9-1: Modulation Characteristics - Audio Frequency Response; 422.2000 MHz; WB... 25 Plot 9-2: Modulation Characteristics - Audio Frequency Response; 422.2000 MHz; NB... 26 Plot 10-1: Modulation Characteristics Audio Low Pass Filter; 422.2000 MHz; WB... 27 Plot 10-2: Modulation Characteristics Audio Low Pass Filter; 422.2000 MHz; NB... 28 Plot 11-1: Modulation Characteristics Modulation Limiting: 422.2000 MHz; WB; Positive Peak... 29 Plot 11-2: Modulation Characteristics Modulation Limiting: 422.2000 MHz; WB; Negative Peak... 30 Plot 11-3: Modulation Characteristics Modulation Limiting: 422.2000 MHz; NB; Positive Peak... 31 Plot 11-4: Modulation Characteristics Modulation Limiting: 422.2000 MHz; NB; Negative Peak... 32 3 of 64

Table of Appendixes Appendix A: RF Exposure... 35 Appendix B: Agency Authorization... 36 Appendix C: Confidentiality Request Letter... 37 Appendix D: IC Letters... 38 Appendix E: Operational Description... 39 Appendix F: Schematics... 40 Appendix G: Block Diagrams... 41 Appendix H: Parts List... 42 Appendix I: Alignment/Tune Up Procedure... 43 Appendix J: User Manual... 44 Appendix K: Label & Location... 45 Appendix L: Test Configuration Photographs... 46 Appendix M: External Photographs... 48 Appendix N: Internal Photographs... 52 Table of Photographs Photograph 1: ID Label Sample and Location, with RF Label... 45 Photograph 2: Radiated TX Spurious Emissions Front View...46 Photograph 3: Radiated TX Spurious Emissions Rear View...47 Photograph 4: Front View... 48 Photograph 5: Back View... 49 Photograph 6: Left Side... 50 Photograph 7: Right Side... 50 Photograph 8: Top View... 51 Photograph 9: EUT Opened... 52 Photograph 10: LCD Board Back View... 53 Photograph 11: Main Board in Casing Top View 1... 54 Photograph 12: Main Board in Casing - Top View 2... 55 Photograph 13: Main Board in Casing - Bottom View 1... 56 Photograph 14: Main Board in Casing - Bottom View 2... 57 Photograph 15: Rear Casting... 58 Photograph 16: Main Board - Top Overall View... 59 Photograph 17: Main Board Top View Close Up of Logic Section... 60 Photograph 18: Main Board - Bottom View... 61 Photograph 19: Main Board - Bottom View Close Up of Battery Contact... 62 Photograph 20: Interface Board - Front View... 63 Photograph 21: Interface Board Back View... 64 4 of 64

1 General Information This following Certification Report is prepared on behalf of M/A-COM, Inc. in accordance with the Federal Communications Commission and Industry Canada Rules and Regulations. The Equipment Under Test (EUT) was the P5400 UHF-L Portable Radio; FCC ID: OWDTR-0045-E, IC: 3636B-0045. The test results reported in this document relate only to the item that was tested. All measurements contained in this application were conducted in accordance with FCC Rules and Regulations CFR 47 and Industry Canada RSS-119. Calibration checks are performed regularly on the instruments, and all accessories including high pass filter, coaxial attenuator, preamplifier and cables. 1.1 Test Facility The open area test site and conducted measurement facility used to collect the radiated data is located on the parking lot of Rhein Tech Laboratories, Inc. 360 Herndon Parkway,, Herndon, Virginia 20170. This site has been fully described in a report submitted to and approved by the Federal Communications Commission to perform AC line conducted and radiated emissions testing. 1.2 Related Submittal(s)/Grant(s) This is an original application report. 5 of 64

2 Tested System Details The test sample was received on March 28, 2007. Listed below are the identifiers and descriptions of all equipment, cables, and internal devices used with the EUT for this testing, as applicable. Table 2-1: Equipment under Test (EUT) The test system contains the following components: Part Manufacturer Model PN/SN FCC ID Radio M/A-COM, Inc. P5400 Radio M/A-COM, Inc. P5400 RU-123550-022 (System version) RU-123550-021 (Scan version) RTL Bar Code OWDTR-0045-E 17923 OWDTR-0045-E Battery M/A-COM, Inc. NiMH BT-023406-003 N/A N/A Battery M/A-COM, Inc. NiCd BT-023406-001 N/A N/A Battery M/A-COM, Inc. Li-Ion BT-023406-005 N/A N/A Microphone Microphone Antenna Antenna Antenna M/A-COM, Inc. M/A-COM, Inc. M/A-COM, Inc. M/A-COM, Inc. M/A-COM, Inc. Speaker Mic (no antenna) Speaker Mic (w/ antenna) Helical Stub 378-403 MHz Helical Stub 403-430 MHz ¼ Wave Whip 378-430 MHz N/A MC023933-001 N/A 017868 MC023933-002 N/A 017869 KRE 101 1219/9 N/A N/A KRE 101 1219/10 N/A N/A KRE 101 1223/10 N/A N/A Table 2-2: Support Equipment Part Manufacturer Model PN/SN FCC ID RTL Bar Code Audio Test Box M/A-COM, Inc. MATQ-03424 N/A N/A 017870 Audio Test Cable M/A-COM, Inc. CA-023407-002 N/A N/A 017869 6 of 64

Figure 2-1: Configuration of Tested System Antenna KRE 101 1219/9 KRE 101 1219/10 KRE 101 1223/10 M/A-COM, Inc. P5400 UHF-L RU-123550-022 RU-123550-021 P5400 M/A-COM Speaker Mic. MC023933-001 MC023933-002 3 FCC Rules and Regulations Part 2 2.1033(c)(8) Voltages and Currents Through The Final Amplifying Stage Nominal DC Voltage: NiCd: 6.0 to 9.0 (7.5 nom.) NiMH: 6.0 to 9.0 (7.5 nom.) LiIon: 6.0 to 9.0 (7.5 nom.) Alkaline: 6.0 to 9.2 (7.5 nom.) Current: 2.5 A 7 of 64

4 FCC Rules and Regulations Part 2 2.1046(a): RF Power Output: Conducted; RSS-119 6.2: Output Power Test 4.1 Test Procedure ANSI TIA-603-C-2004, section 2.2.1 The EUT was connected with a power sensor/meter through an appropriate 50 ohm attenuator. Attenuator loss was accounted for. 4.2 Test Data Table 4-1: RF Power Output (High Power): Carrier Output Power (Unmodulated) Channel Frequency (MHz) RF Power Measured (Watt)* 1 (High Power) 406.1125 4.3 2 (High Power) 422.2000 4.3 3 (High Power) 429.9875 4.3 * Measurement accuracy: +/-.02 db (logarithmic mode) Table 4-2: RF Power Output (Rated Power) Channel Frequency (MHz) Rated Power (Watt)* 1 (High Power) 406.1125 4.0 2 (High Power) 422.2000 4.0 3 (High Power) 429.9875 4.0 * Measurement accuracy: +/-.02 db (logarithmic mode) Table 4-3: Test Equipment for Testing RF Power Output - Conducted RTL Asset # Manufacturer Model Part Type Serial Number 901184 901356 900819 Agilent Technologies Agilent Technologies Weinschel Corporation E4416A EPM-P Power Meter, Single Channel Calibration Due GB41050573 10/03/07 E9323A Power Sensor 31764-264 10/03/07 BF0830 Attenuator 10 db N/A 12/02/08 Test Personnel: Dan Biggs March 28, 2007 Test Engineer Signature Date Of Test 8 of 64

5 FCC Rules and Regulations Part 2 2.1051: Spurious Emissions at Antenna Terminals; Part 90 90.210: Emissions Masks; RSS-119 5.8: Transmitter Unwanted Emissions 5.1 Test Procedure ANSI TIA-603-C-2004, Section 2.2.13. The transmitter was interfaced with a spectrum analyzer through an appropriate 50 ohm attenuator and a notch filter. The transmitter was operated at maximum power. Attenuator and cable losses were accounted for. Analog Modulation: The transmitter is terminated with a 50 Ω load and is modulated with a 2,500 Hz sine wave at an input level 16 db greater than that required to produce 50% of the rated system deviation at 1,000 Hz. Digital Modulation: Modulated to its maximum extent using a pseudo random data sequence 9600 bps. 5.2 Test Data Frequency range of measurement per Part 2.1057: 9 khz to 10xFc. Limit = 50 + 10 Log (P) db or 70 db, whichever is greater. The worst case (unwanted emissions) channels are shown. The magnitude of emissions attenuated more than 20 db below the FCC limit need not be recorded. Table 5-1: Conducted Spurious Emissions 406.1125 MHz; Narrow Band; High Power Freq = 406.1125 MHz - Limit = 50 + 10 Log P = 56.3 dbc - Conducted Power = 36.4 dbm = 4.3 W Frequency (MHz) SA Level w/ Notch (dbm) Level (dbc) Limit (dbc) Margin(dB) 812.225-44.2 79.4 56.3-23.1 1218.338-56.0 87.3 56.3-30.9 1624.45-65.0 101.3 56.3-44.9 2030.563-67.3 100.4 56.3-44.0 2436.675-66.9 102.8 56.3-46.4 2842.788-62.7 95.4 56.3-39.0 3248.9-61.4 90.0 56.3-33.6 3655.013-65.1 100.4 56.3-44.0 4061.125-66.1 97.5 56.3-41.1 9 of 64

Table 5-2: Conducted Spurious Emissions 422.2000 MHz; Narrow Band; High Power Freq = 422.2 MHz - Limit = 50 + 10 Log P = 56.3 dbc - Conducted Power = 36.4 dbm = 4.3 W Frequency (MHz) SA Level w/ Notch (dbm) Level (dbc) Limit (dbc) Margin(dB) 844.400-50.3 85.4 56.3-29.1 1266.600-50.3 83.1 56.3-26.8 1688.800-64.5 100.9 56.3-44.6 2111.000-63.5 97.7 56.3-41.4 2533.200-66.5 102.4 56.3-46.1 2955.400-60.3 94.2 56.3-37.9 3377.600-58.1 88.6 56.3-32.3 3799.800-65.7 101.0 56.3-44.7 4222.000-67.0 96.7 56.3-40.4 Table 5-3: Conducted Spurious Emissions 429.9875 MHz; Narrow Band; High Power Freq = 429.9875 MHz - Limit = 50 + 10 Log P = 56.3 dbc - Conducted Power = 36.4 dbm = 4.3 W Frequency (MHz) SA Level w/ Notch (dbm) Level (dbc) Limit (dbc) Margin(dB) 859.975-52.0 87.6 56.3-31.2 1289.963-48.3 83.2 56.3-26.8 1719.950-62.9 99.7 56.3-43.3 2149.938-62.4 97.8 56.3-41.4 2579.925-65.8 101.7 56.3-45.3 3009.913-58.3 91.2 56.3-34.8 3439.900-61.2 94.4 56.3-38.0 3869.888-65.6 101.8 56.3-45.4 4299.875-65.6 90.0 56.3-33.6 Table 5-4: RTL Asset # 901215 901396 901424 Test Equipment for Testing Conducted Spurious Emissions Manufacturer Model Part Type Serial Number Hewlett Packard MCE Weinschel Insulated Wire Inc. 8596EM 48-40-34 KPS-1503-360- KPS EMC Analyzer (9 khz 12.8 GHz) Attenuator, 40 db, DC-18 GHz, 100 W Calibration Due 3826A00144 10/16/07 93453 01/13/09 RF cable 36" NA 12/05/07 Test Personnel: Daniel Biggs March 29, 2007 Test Engineer Signature Date Of Test 10 of 64

6 FCC Rules and Regulations Part 2 2.1053(a): Field Strength of Spurious Radiation; RSS-119 6.3: Unwanted Emissions 6.1 Test Procedure ANSI TIA-603-C-2004, Section 2.2.12 Analog Modulation: The transmitter is terminated with a 50 Ω load and is modulated with a 2,500 Hz sine wave at an input level 16 db greater than that required to produce 50% of the rated system deviation at 1,000 Hz. Digital Modulation: Modulated to its maximum extent using a pseudo random data sequence 9600 bps. The spurious emissions levels were measured and the device under test was replaced by a substitution antenna connected to a signal generator. This signal generator level was then corrected by subtracting the cable loss from the substitution antenna to the signal generator, and the gain of the antenna was further corrected to a half wave dipole. P d (dbm) = P g (dbm) cable loss (db) + antenna gain (db) where: P d is the dipole equivalent power P g is the generator output power into the substitution antenna 6.2 Test Data 6.2.1 CFR 47 Part 90.210 Requirements Limit = 50 + 10 Log (P) db or 70 db, whichever is greater. The worst case emissions test data are shown. The magnitude of emissions attenuated more than 20 db below the FCC limit need not be recorded. Table 6-1: Field Strength of Spurious Radiation 422.2000 MHz; Narrow Band; High Power Freq = 422.2 MHz - Limit = 50 + 10 Log P = 56.3 dbc - Conducted Power = 36.4 dbm = 4.3 W Frequency (MHz) Measured Level (dbuv) Signal Gen. Level (db) Cable Loss (db) Antenna Gain (dbd) Corrected Level (dbc) Limit (dbc) Margin (db) 422.20 H V H V H V H V H V 844.40 37.9 41.8-65.7-61.8 3.9 4.8 5.0 101.2 97.1 56.3-44.8-40.7 1266.60 34.4 35.0-64.6-64.1 4.9 5.3 5.1 100.6 100.3 56.3-44.2-43.9 1688.80 35.4 34.9-60.7-59.8 5.5 6.3 6.4 96.3 95.3 56.3-39.9-38.9 2111.00 34.6 35.2-36.6-35.7 6.1 7.3 6.8 71.8 71.4 56.3-15.4-15.0 2533.20 25.9 25.8-41.9-41.8 6.5 7.2 7.4 77.6 77.3 56.3-21.2-20.9 2955.40 22.6 21.2-42.2-42.9 6.7 7.0 7.3 78.3 78.7 56.3-21.9-22.3 3377.60 21.6 20.3-43.6-45.5 7.1 7.3 7.5 79.8 81.5 56.3-23.4-25.1 3799.80 20.2 20.3-33.7-32.6 7.3 7.2 7.4 70.2 68.9 56.3-13.8-12.5 4222.00 20.1 20.2-34.6-34.8 7.8 7.8 8.0 71.0 71.0 56.3-14.6-14.6 11 of 64

Table 6-2: Test Equipment for Testing Field Strength of Spurious Radiation RTL Asset # Manufacturer Model Part Type Serial Number Calibration Due 900791 Schaffner- Chase CBL6112 Antenna (25 MHz 2 GHz) 2099 06/12/07 900772 EMCO 3161-02 Horn Antennas (2 4 GHz) 9504-1044 05/20/08 900321 EMCO 3161-03 Horn Antennas (4 8 GHz) 9508-1020 05/20/08 900323 EMCO 3160-07 Horn Antennas (8.2 12 GHz) 9605-1054 07/31/09 900814 Electro- EM-6961 Double Ridges Guide Metrics (RGA-60) Antenna (1-18 GHz) 2310 03/30/09 901215 Hewlett EMC Analyzer 8596EM Packard (9 khz 12.8 GHz) 3826A00144 10/16/07 901426 Insulated KPS-1503- Wire Inc. 3600-KPS RF Cable, 30' NA 12/06/07 901425 Insulated KPS-1503- Wire, Inc. 2400-KPS RF Cable, 20' NA 12/05/07 901424 Insulated KPS-1503-360- Wire Inc. KPS RF Cable 36" NA 12/05/07 Test Personnel: Daniel Biggs May 31, 2007 Test Engineer Signature Date Of Test 12 of 64

7 FCC Rules and Regulations Part 2 2.1049: Occupied Bandwidth; Part 90 90.210(i) & (j): Emissions Masks; RSS-119 5.8: Transmitter Unwanted Emissions 7.1 Test Procedure ANSI TIA-603-C-2004, Section 2.2.11. The transmitter was interfaced with a spectrum analyzer through an appropriate 50 ohm attenuator and a notch filter. The transmitter was operated at maximum power. Attenuator losses were accounted for. Analog Modulation: The transmitter is terminated with a 50 Ω load and is modulated with a 2,500 Hz sine wave at an input level 16 db greater than that required to produce 50% of the rated system deviation at 1,000 Hz. The device uses digital modulation modulated to its maximum extent using a pseudo-random data sequence of 9600 bps. Limit Mask B: (1) On any frequency removed from the assigned frequency by more than 50%, but not more than 100% of the authorized bandwidth: at least 25 db. (2) On any frequency removed from the assigned frequency by more than 100%, but not more than 250% of the authorized bandwidth: at least 35 db. (3) On any frequency removed from the assigned frequency by more than 250% of the authorized bandwidth: at least 43 + 10 log (P) db. Limit Mask C: (1) On any frequency removed from the center of the authorized bandwidth by a displacement frequency (fd in khz) of more than 5 khz, but not more than 10 khz: at least 83 log (fd/5) db; (2) On any frequency removed from the center of the authorized bandwidth by a displacement frequency (fd in khz) of more than 10 khz, but not more than 250% of the authorized bandwidth: at least 29 log (fd 2 /11) db or 50 db, whichever is the lesser attenuation; (3) On any frequency removed from the center of the authorized bandwidth by more than 250% of the authorized bandwidth: at least 43 + 10 log (P) db. Limit Mask D: (1) On any frequency removed from the center of the authorized bandwidth f 0 : zero db; (2) On any frequency removed from the center of the authorized bandwidth by a displacement frequency (fd in khz) of more than 5.625 khz, but not more than 12.5 khz: at least 7.27(fd-2.88 khz) db; (3) On any frequency removed from the center of the authorized bandwidth by a displacement frequency (fd in khz) of more than 12.5 khz: at least 50 + 10 log (P) db or 70 db, whichever is the lesser attenuation. 13 of 64

7.2 Test Data Plot 7-1: Occupied Bandwidth 422.2000 MHz; Mask B; WB Analog; High Power 14 of 64

Plot 7-2: Occupied Bandwidth 422.2000 MHz; Mask D; NB Analog; High Power 15 of 64

Plot 7-3: Occupied Bandwidth 422.2000 MHz; Mask C; NB 2-level FSK; 9600 BPS 16 of 64

Plot 7-4: Occupied Bandwidth 422.2000 MHz; Mask D; NB 2-level FSK; 9600 BPS 17 of 64

Plot 7-5: Occupied Bandwidth 422.2000 MHz; Mask D; NB 2-level FSK; 4800 BPS 18 of 64

Plot 7-6: Occupied Bandwidth 422.2000 MHz; Mask D; 4-level C4FM (P25 mode); 4800 SPS 19 of 64

Table 7-1: Test Equipment for Testing Occupied Bandwidth RTL Asset # Manufacturer Model Part Type Serial Number Calibration Due 901215 Hewlett Packard 8596EM EMC Analyzer (9 khz 12.8 GHz) 3826A00144 10/16/07 900912 Hewlett Packard 85662A EMI Receiver 2542A12739 03/21/08 901396 MCE Weinschel 48-40-34 Attenuator, 40 db, DC-18 GHz, 100 W 93453 12/02/08 Test Personnel: Daniel Biggs May 29 & June 4, 2007 Test Technician/Engineer Signature Dates of Tests 20 of 64

8 FCC Rules and Regulations Part 90 90.213 and Part 2 2.1055: Frequency Stability 8.1 Test Procedure ANSI TIA-603-C-2004, section 2.2.2 The carrier frequency stability is the ability of the transmitter to maintain an assigned carrier frequency. The EUT was evaluated over the temperature range -30 C to +60 C. The temperature was initially set to -30 C and a 2-hour period was observed for stabilization of the EUT. The frequency stability was measured within one minute after application of primary power to the transmitter. The temperature was raised at intervals of 10 C through the range. A ½ hour period was observed to stabilize the EUT at each measurement step, and the frequency stability was measured within one minute after application of primary power to the transmitter. Additionally, the power supply voltage of the EUT was varied from the battery operating end point to 122.7% of nominal value. The worst-case test data are shown below in Table 8-1 and Table 8-3. 8.2 Test Data 8.2.1 CFR 47 Part 90.213 Requirements For mobile transmitters over 2 Watts output power: 421-512 MHz band: 5 ppm Note: In the 421-512 MHz band, mobile stations designed to operate with a 12.5 khz channel bandwidth must have a frequency stability of 2.5 ppm. Mobile stations designed to operate with a 6.25 khz channel bandwidth must have a frequency stability of 1.0 ppm. 21 of 64

8.2.2 Frequency Stability/Temperature Variation Plot 8-1: Temperature Frequency Stability 422.2000 MHz Channel Temperature Frequency Stability 1.50 1.00 0.50 ppm 0.00-0.50-1.00-1.50-30 -20-10 0 10 20 30 40 50 60 Temperature (C) Table 8-1: Frequency Stability/Temperature Variation 422.2000 MHz Temperature C Measured Frequency (MHz) ppm -30 422.199771-0.54-20 422.199802-0.47-10 422.199843-0.37 0 422.199784-0.51 10 422.199800-0.47 20 422.199811-0.45 30 422.199982-0.04 40 422.199992-0.02 50 422.199968-0.08 60 422.200044 0.10 22 of 64

Table 8-2: Test Equipment for Testing Frequency Stability/Temperature RTL Asset # 900946 Manufacturer Model Part Type Tenney Engineering, Inc. TH65 901396 MCE Weinschel 48-40-34 901424 Insulated Wire Inc. 901300 Test Personnel: Agilent Technologies KPS-1503-360- KPS Temperature Chamber with Humidity Attenuator, 40 db, DC-18 GHz, 100 W Serial Number Calibration Due 11380 01/20/08 93453 12/02/08 RF Cable 36" NA 12/12/07 53131A Frequency Counter MY40001345 12/15/07 Daniel Biggs May 30, 2007 Test Engineer Signature Date Of Test 23 of 64

8.2.3 Frequency Stability/Voltage Variation Plot 8-2: Voltage Frequency Stability 422.2000 MHz Channel Voltage Frequency Stability 1.50 1.00 0.50 ppm 0.00-0.50-1.00-1.50 422.199818 422.199820 422.199820 Voltage (dc) Table 8-3: Frequency Stability/Voltage Variation 422.2000 MHz Voltage (VDC) Measured Frequency (MHz) ppm 6.0 422.199818-0.43 7.5 422.199820-0.43 9.2 422.199820-0.43 Table 8-4: Test Equipment for Testing Frequency Stability/Voltage RTL Asset # Manufacturer Model Part Type Serial Number Calibration Due 901300 Agilent Technologies 53131A Frequency Counter MY40001345 12/15/07 901396 MCE Weinschel 48-40-34 Attenuator, 40 db, DC-18 GHz, 100 W 93453 12/02/08 901424 Insulated Wire KPS-1503-360- Inc. KPS RF cable 36" N/A 12/12/07 901247 Wavetek DM25XT Digital Multimeter 40804098 12/07/07 Test Personnel: Daniel Biggs May 30, 2007 Test Engineer Signature Date Of Test 24 of 64

9 FCC Rules and Regulations Part 2 2.1047(a): Modulation Characteristics - Audio Frequency Response 9.1 Test Procedure ANSI TIA-603-C-2004, section 2.2.6. The audio frequency response is the degree of closeness to which the frequency deviation of the transmitter follows a prescribed characteristic. The input audio level at 1000 Hz was set to produce 20% of the rated system deviation. This point is shown as the 0 db reference level, noted DEVref. The audio signal generator was varied from 100 Hz to 5 khz with the input level held constant. The deviation in khz was recorded using a modulation analyzer as DEVfreq. The response in db relative to 1 khz was calculated as follows: Audio Frequency Response = 20 LOG (DEVfreq/DEVref) 9.2 Test Data Plot 9-1: Modulation Characteristics - Audio Frequency Response; 422.2000 MHz; WB 25 of 64

Plot 9-2: Modulation Characteristics - Audio Frequency Response; 422.2000 MHz; NB Table 9-1: Test Equipment for Testing Audio Frequency Response RTL Serial Calibration Manufacturer Model Part Type Asset # Number Due 901057 Hewlett Packard 3336B Synthesizer/Level Generator 2514A02585 12/19/07 901118 Hewlett Packard 8901A Opt. 002-003 Modulation Analyzer 2406A00178 07/21/07 901054 Hewlett Packard 3586B Selective Level Meter 1928A01892 10/19/07 Test Personnel: Daniel Biggs May 29, 2007 Test Technician/Engineer Signature Date Of Test 26 of 64

10 FCC Rules and Regulations Part 2 2.1047(a): Modulation Characteristics Audio Low Pass Filter 10.1 Test Procedure 2.1047(a) Voice modulated communication equipment: a curve or equivalent data showing the frequency response of the audio modulating circuit over a range of 100 to 5000 Hz shall be submitted. For equipment required to have an audio low-pass filter, a curve showing the frequency response of the filter, or of all circuitry installed between the modulation limiter and the modulated stage, shall be submitted. ANSI TIA-603-C-2004, 2.2.15 The Audio Low Pass Filter Response is the frequency response of the post limiter low pass filter circuit above 3000 Hz. The audio frequency response of the post-limiter filter can not be measured directly as it is embedded within DSP code. The following plot is a simulation of the audio low pass filter circuitry, and is deemed equivalent data per 2.1047(a). 10.2 Test Data Plot 10-1: Modulation Characteristics Audio Low Pass Filter; 422.2000 MHz; WB 27 of 64

Plot 10-2: Modulation Characteristics Audio Low Pass Filter; 422.2000 MHz; NB 28 of 64

11 FCC Rules and Regulations Part 2 2.1047(b): Modulation Characteristics - Modulation Limiting 11.1 Test Procedure ANSI TIA-603-C-2004, section 2.2.3. The transmitter was adjusted for full rated system deviation. The audio input level was adjusted for 60% of rated system deviation at 1000 Hz. Using this level as a reference (0 db), the audio input level was varied from the reference +/-20 db for modulation frequencies of 300 Hz, 1,000 Hz, and 2,500 Hz. The system deviation obtained as a function of the input level was recorded. Both positive and negative peak deviations were recorded. 11.2 Test Data Plot 11-1: Modulation Characteristics Modulation Limiting: 422.2000 MHz; WB; Positive Peak 29 of 64

Plot 11-2: Modulation Characteristics Modulation Limiting: 422.2000 MHz; WB; Negative Peak 30 of 64

Plot 11-3: Modulation Characteristics Modulation Limiting: 422.2000 MHz; NB; Positive Peak 31 of 64

Plot 11-4: Modulation Characteristics Modulation Limiting: 422.2000 MHz; NB; Negative Peak Table 11-1: Test Equipment for Testing Modulation Limiting RTL Serial Calibration Manufacturer Model Part Type Asset # Number Due 901057 Hewlett Packard 3336B Synthesizer/Level Generator 2514A02585 12/19/07 901118 Hewlett Packard 8901A Opt. 002-003 Modulation Analyzer 2406A00178 07/21/07 901054 Hewlett Packard 3586B Selective Level Meter 1928A01892 10/19/07 Test Personnel: Daniel Biggs May 29, 2007 Test Technician/Engineer Signature Date Of Test 32 of 64

12 FCC Rules and Regulations Part 2 2.202: Necessary Bandwidth and Emission Bandwidth Type of Emission: F3E, F1D, F1E Voice Wide Band; 25 khz Channel Spacing Calculation: Max modulation (M) in khz: 3.0 Max deviation (D) in khz: 5.0 Constant factor (K): 1 (assumed) Bn = 2xM+2xDK = 16.0 khz Emission designator: 16K0F3E Voice Narrow Band; 12.5 khz Channel Spacing Calculation: Max modulation (M) in khz: 3.0 Max deviation (D) in khz: 2.5 Constant factor (K): 1 (assumed) Bn = 2xM+2xDK = 11.0 khz Emission designator: 11K0F3E Digital Voice and Data 2-level FSK; 9600 bps; Wide Band; 25 khz Channel Spacing Calculation: Data rate in bps (R) = 9600 Peak deviation of carrier (D) = 3000 Bn = 3.86D + 0.27R = 3.86(3000) + 0.27(9600) = 14.172 khz Emission designator: 14K2F1D, 14K2F1E Digital Voice and Data 2-level FSK; 9600 bps; Narrow Band; 12.5 khz Channel Spacing Calculation: Data rate in bps (R) = 9600 Peak deviation of carrier (D) = 2000 Bn = 3.86D + 0.27R = 3.86(2350) + 0.27(9600) = 10.312 khz Emission designator: 10K3F1D, 10K3F1E Digital Voice and Data 2-level FSK; 4800 bps; Narrow Band; 12.5 khz Channel Spacing Calculation: Data rate in bps (R) = 4800 Peak deviation of carrier (D) = 1500 Bn = 3.86D + 0.27R = 3.86(1500) + 0.27(4800) = 7.086 khz Emission designator: 7K10F1D, 7K10F1E Digital Data 4 level C4FM (P25 Standard); 4800 bps; Narrow Band; 12.5 khz Channel Spacing Calculation: Data rate in bps (R) = 9600 Peak deviation of carrier (D) = +/-1.8 khz Number of states in each symbol (S) = 2 Bn = [4800/log 2 (2) + 2(1800)(1)] = 8.400 khz Emission designator: 8K40F1D, 8K40F1E 33 of 64

13 Conclusion The data in this measurement report shows that the M/A-COM, Inc. Model P5400 UHF-L Portable Radio, FCC ID: OWDTR-0045-E, IC: 3636B-0045, complies with all the applicable requirements of Parts 90, 15 and 2 of the FCC Rules and Regulations, and Industry Canada RSS-119, Issue 9, 2007. 34 of 64